Overview of EP4CE30F23C7N by Intel Corporation
The EP4CE30F23C7N, manufactured by Intel Corporation, is a state-of-the-art Field Programmable Gate Array (FPGA) that features 1803 Configurable Logic Blocks (CLBs), a maximum clock frequency of 472.5MHz, and a total of 28848 logic cells. This component is part of the Cyclone® IV E family, which is known for its high functionality and performance in a 23 x 23 mm, 1 mm pitch, lead-free, PBGA-484 package. As a key component in the Field Programmable Gate Arrays category of programmable logic, this FPGA is designed to meet the needs of a broad range of applications by allowing for the customization of logic to meet specific project requirements.
The part supports a wide range of operating temperatures up to 85°C and offers a supply voltage range from 1.15V to 1.25V, with a nominal voltage of 1.2V, catering to low-power applications. Its compliance with RoHS and REACH standards ensures compatibility with environmentally conscious designs. Additionally, the EP4CE30F23C7N is equipped with SMT for easy integration into various hardware projects.
Industry Applications for EP4CE30F23C7N
The versatility and high-performance characteristics of the EP4CE30F23C7N allows it to potentially serve a wide array of industries. It is important for engineering and design teams to conduct thorough analyses and adhere to industry standards and specific application requirements before implementing this FPGA into their designs. The potential industry applications include:
- Education and Research: In the academic sector, the EP4CE30F23C7N could potentially be used for educational purposes, such as in laboratory settings for teaching digital logic design and FPGA programming. Its high logic cell count and flexible I/O options make it a suitable tool for complex design projects.
- Computing and Data Storage: The high-speed capabilities and large number of logic cells might make the EP4CE30F23C7N suitable for applications in data processing and storage systems, where rapid data manipulation and storage are critical. It could possibly be used for accelerating data-intensive algorithms in servers or storage devices.
- Telecommunications: Another possible application area could be in telecommunications equipment, such as routers, switches, and base stations, where the ability to process high-speed signals is crucial. The EP4CE30F23C7N might be utilized for signal processing and control functions within these devices.
Note: These potential industry applications are only conceptual/illustrative and require analysis and verification by engineering and design teams for adherence to industry standards and specific application requirements.
About Intel Corporation
Intel Corporation, a leading global technology company, is well-known for its innovation in the semiconductor industry, including the development and manufacturing of advanced Field Programmable Gate Arrays. Intel’s suite of programmable logic solutions, notably those within the Cyclone® series, are designed to offer high performance, low power consumption, and significant flexibility for a variety of applications across multiple industries. The EP4CE30F23C7N is one example of Intel’s commitment to providing cutting-edge technology for applications that require customizable logic solutions. By leveraging their extensive research and development capabilities, Intel continues to play a pivotal role in the advancement of programmable logic technologies.
Where to Find EP4CE30F23C7N by Intel Corporation
To purchase the EP4CE30F23C7N or to find alternate parts within the Field Programmable Gate Arrays category that might be offered by Intel Corporation or other manufacturers, customers are encouraged to explore findchips.com. This platform provides comprehensive information on current stock levels, pricing, and distributor availability. Historically, the EP4CE30F23C7N has been available from distributors such as MacroQuest Electronics, Schukat electronic, Ameya Holding Limited, and DigiKey, among others. However, to get the most up-to-date information on availability and pricing, visiting findchips.com is recommended.